38- RAVAGNOLO 0, MISZTAL I. Genetic component of heat stress in dairy cattle, parameter estimation. Journal of Animal Science, 83: 9, 2126-2130, 2000.
39- MENENDEZ MA, REYES A, GUERRA D, CORDOVI J. Genetic variability of milk production from Holstein cows according to the level ofmilk yield ofthe herd. Cuban Journal of Agricultural Sciences, 23: 1, 9-15, 1989.
40- FERREIRA GB, FERNANDES HD. Genetic parameters for productive traits in Holstein cows in Goias State, Brazil. Revista Brasileira de Zootecnia, 29: 2, 421426, 2000.
41- BOLDMAN KG, FREEMAN AE. Adjustment for heterogeneity ofvariances by herd production level in dairy cow and sire evaluation. Journal of Dairy Science, 73: 2, 503-512, 1990.
42- REGE J., MOSI RO. An analysis of the Kenya Friesian Breed from 1968 to 1984
genetic and environmental trends and related parameters of milk production. Bulletin of Animal Health and Production in Africa, 37: 3, 267-278, 1989. 43- RAHEJA KL, BURNSIDE EB, SCHAEFFER LR. Relationships between fertility and production in Holstein dairy cattle in different lactations. Journal of Dairy Science, 72: 10, 2670-2678, 1989. 44- CASTILLO JH, NAVARRO FR, ULLOA AR. Genetic analysis ofthe ratio of milk yield to chest circumfrence ratio as an indirect indicator of efficiency of production in Holstein cattle. Veterinaria Mexico, 28: 2, 123-136, 1997. 45- MATOS RS, RORATO PRN, FERREIRA GB, RiGON JL. A study of genetic and
environmental effects on milk and milk fat yield in Holstein cows in Rio Grande do Sul. Cience Rural, 27: 3, 465-471, 1997. 46- CATILLO G, KADLECIK 0, MOIOLI B. Genetic evaluation of selected Holstein population with an animal model for milk production. Zivocisna Vyroba, 12, 529532, 1995. 47- GEORGOUDIS A, METZIDAKI M, PLOUMI K. Estimation of the heritability coefficient for the first lactation milk yield ofblack and white catties born in the national genetic improvement scheme. Epitheorese Zootehnikes Epistemes, 8, 45-61, 1988 48- MILAGRES JC, ALYES AJR, PEREIRA JC, TEIXEIRA NM. Effect of genetic and environmental factors on milk yield of crossbred Holstein, Brown Swiss, Jersey and Zebu cows. 2. Milk yield. Revista da Sociedade Brasileira de Zootecnia, 17: 4, 341357, 1988. 49- TANG ZQ. Genetic improvement for milk yield in Chinese Holstein cattle. Chinese Journal of Animal Science, 32: 3, 26-27, 1996. 50- DEMATAWEWA CM, BERGER PJ. Genetic and phenotypic parameters for 305day yield, fertility and survival in Holsteins. Journal ofDairy Science, 81: 10, 27002709, 1998. 51- RAHEJA KL, BURNSIDE EB, SCHAFFER LR. Genetic study on relationship
between fertility and production traits in Holstein dairy cattle. Annual Research Report, Centre for Genetic Improvement ofLivestock, University of Guelph, 17-18, 1987. 52- WOLLNY CB~ NAMWAZA AG, MAKAMBA TSW, KUTTNER K. The Cattle Breeding Situation in Malawi. Archiv Fur Tierzucht, 41: (1-2), 33-44, 1998. 53- RORATO PRN, LOBO RB, DUARTE FAM, FREITAS MAR. Estimates of phenotypic and genetic parameters for production traits in Holstein cows in Brazil. Revista Brasileira de Genetica, 9: 2, 261-269, 1986.
63



69. SAYFAYA BENZER SAYFALAR

Akkeçilerde süt verimine ait tekrarlanma derecesinin hesaplanması - Sayfa 37
Mll..AGRES, J.C., ALVES, AJ.R., PERERIA, J.C. and TEIXEIRA, N.M, 1988. Effect of Genetic and Environmental Factors on Milk Yield of Crossbred Holstem, Brown Swiss, Jersey and Zebu Cows. 3. Calving hıterval. Revista da Sociedade Brasileira de Zootecnia. 17:4, 358-366; 32 ref. NEGRON, A. And BOLMER- TERAN, D. 1978. Mi1k Production on the High Plateau in Peru. Memoria, Asociacion Latinoamericana de ...

69. SAYFADAKI ANAHTAR KELIMELER

yield
genetic
cows
holstein
dairy
production


69. SAYFA ICERIGI

38- RAVAGNOLO 0, MISZTAL I. Genetic component of heat stress in dairy cattle, parameter estimation. Journal of Animal Science, 83: 9, 2126-2130, 2000.
39- MENENDEZ MA, REYES A, GUERRA D, CORDOVI J. Genetic variability of milk production from Holstein cows according to the level ofmilk yield ofthe herd. Cuban Journal of Agricultural Sciences, 23: 1, 9-15, 1989.
40- FERREIRA GB, FERNANDES HD. Genetic parameters for productive traits in Holstein cows in Goias State, Brazil. Revista Brasileira de Zootecnia, 29: 2, 421426, 2000.
41- BOLDMAN KG, FREEMAN AE. Adjustment for heterogeneity ofvariances by herd production level in dairy cow and sire evaluation. Journal of Dairy Science, 73: 2, 503-512, 1990.
42- REGE J., MOSI RO. An analysis of the Kenya Friesian Breed from 1968 to 1984
genetic and environmental trends and related parameters of milk production. Bulletin of Animal Health and Production in Africa, 37: 3, 267-278, 1989. 43- RAHEJA KL, BURNSIDE EB, SCHAEFFER LR. Relationships between fertility and production in Holstein dairy cattle in different lactations. Journal of Dairy Science, 72: 10, 2670-2678, 1989. 44- CASTILLO JH, NAVARRO FR, ULLOA AR. Genetic analysis ofthe ratio of milk yield to chest circumfrence ratio as an indirect indicator of efficiency of production in Holstein cattle. Veterinaria Mexico, 28: 2, 123-136, 1997. 45- MATOS RS, RORATO PRN, FERREIRA GB, RiGON JL. A study of genetic and
environmental effects on milk and milk fat yield in Holstein cows in Rio Grande do Sul. Cience Rural, 27: 3, 465-471, 1997. 46- CATILLO G, KADLECIK 0, MOIOLI B. Genetic evaluation of selected Holstein population with an animal model for milk production. Zivocisna Vyroba, 12, 529532, 1995. 47- GEORGOUDIS A, METZIDAKI M, PLOUMI K. Estimation of the heritability coefficient for the first lactation milk yield ofblack and white catties born in the national genetic improvement scheme. Epitheorese Zootehnikes Epistemes, 8, 45-61, 1988 48- MILAGRES JC, ALYES AJR, PEREIRA JC, TEIXEIRA NM. Effect of genetic and environmental factors on milk yield of crossbred Holstein, Brown Swiss, Jersey and Zebu cows. 2. Milk yield. Revista da Sociedade Brasileira de Zootecnia, 17: 4, 341357, 1988. 49- TANG ZQ. Genetic improvement for milk yield in Chinese Holstein cattle. Chinese Journal of Animal Science, 32: 3, 26-27, 1996. 50- DEMATAWEWA CM, BERGER PJ. Genetic and phenotypic parameters for 305day yield, fertility and survival in Holsteins. Journal ofDairy Science, 81: 10, 27002709, 1998. 51- RAHEJA KL, BURNSIDE EB, SCHAFFER LR. Genetic study on relationship
between fertility and production traits in Holstein dairy cattle. Annual Research Report, Centre for Genetic Improvement ofLivestock, University of Guelph, 17-18, 1987. 52- WOLLNY CB~ NAMWAZA AG, MAKAMBA TSW, KUTTNER K. The Cattle Breeding Situation in Malawi. Archiv Fur Tierzucht, 41: (1-2), 33-44, 1998. 53- RORATO PRN, LOBO RB, DUARTE FAM, FREITAS MAR. Estimates of phenotypic and genetic parameters for production traits in Holstein cows in Brazil. Revista Brasileira de Genetica, 9: 2, 261-269, 1986.
63

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